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Fatigue of Metals

Fatigue failure is known to be particularly insidious because it occurs without any obvious warning. Today it is often stated that fatigue accounts for at least 90% of all service failures which are due to mechanical causes. [Pg.263]

Fatigue becomes progressively more prevalent as technology develops greater amount of equipment, such as turbines, aircrafts, automobiles, compressors, pumps, bridges, which are subjected to repeated loading and vibration. [Pg.263]

Fatigue results in a brittle-appearing fracture, with no gross deformation at the fracture. On a macroscopic scale the fracture surface is usually normal to the direction of the principal tensile stress. The crack ejctension depends upon material, amplitudes of alternating stress, frequency of stress, temperature of operation. The process of fatigue failure under a load of a constant amplitude typically includes several stages  [Pg.263]

Interatomic Bonding in Solids Fundamentals, Simulation,andApplications, First Edition. Valim Levitin. [Pg.263]

McIntyre, P., Hydrogen-steel interactions during cyclic loading , Proc. of UK/USSR Seminar on Corrosion Fatigue of Metals, Lvov, USSR, 19-22 May 1980, The Metals Society pp. 62-73 (1983)... [Pg.1325]

Jaske, C. E., Payer, J. H., and Balint, V. S., Corrosion Fatigue of Metals in Marine Environments, Springer-Verlag and Batelle Press, (1981)... [Pg.1326]

Fenner, A. J., Wright, K. H. R. and Mann, J. Y., Proceedings of the International Conference on Fatigue of Metals, Instn. Mech. Engrs., London (1957)... [Pg.1339]

Thermal Fatigue of Metals, Andrzej Weronski and Tadeusz Hejwowski... [Pg.5]

Fracture of wires Fracture of metallic glasses Deformation texture Drawing defects Polycrystalline strengthening Fatigue of micro-wires Fatigue of metallic glasses Bonding wires... [Pg.184]

Veronski A, Hejwowsld T (1991) Creep-resisting materials. Thermal fatigue of Metals. CRC Press, p 81-93... [Pg.1805]

P. G. Forrest Fatigue of Metals. Pergamon Press, Oxford, 1962. [Pg.487]

Davidenkov, N. N. 1949. Fatigue of Metals. Kiev, Ukraine Izd. AN USSR. [Pg.221]

Weronski, A., Hejwowski, T. (1991), Thermal Fatigue of Metals, New York Marcel Dekker, Inc., p. 93. [Pg.779]

McAdam, D. J. (1927). Corrosion fatigue of metals as affected by chemical composition, heat treatment and cold working, Trans. Am. Soc. Steel Treat., 11(5), 355-390. [Pg.1332]

Historical review of environmentally enhanced creep and fatigue of metals. [Pg.365]

The Weibull distribution is useful for studies involving brittle fracture and fatigue of metals. It is widely used in the testing and analysis of ball and roller bearings. In the application of Weibull statistics, specially... [Pg.396]

L.F. Coffin, Symposium on Internal Stress and Fatigue of Metals, Elsevier, 1959... [Pg.223]

J. Morrow, Cyclic Plastic Strain Energy and Fatigue of Metals, ASTM STP-378,... [Pg.224]

Gough, H.J. The Fatigue of Metals. Scott, Greenwood, London (1924)... [Pg.67]

Morrow, J. Cyclic plastic strain energy and fatigue of metals. Intern. Friction Damping Cyclic Plast ASTM-STP 378, 45 (1965)... [Pg.68]

See other pages where Fatigue of Metals is mentioned: [Pg.1284]    [Pg.414]    [Pg.349]    [Pg.62]    [Pg.577]    [Pg.263]    [Pg.266]    [Pg.268]    [Pg.270]    [Pg.272]    [Pg.274]    [Pg.276]    [Pg.183]    [Pg.235]    [Pg.235]    [Pg.239]    [Pg.1317]    [Pg.539]    [Pg.429]    [Pg.68]    [Pg.181]    [Pg.365]    [Pg.68]   


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